An analytical model for terahertz detection in cylindrical surrounding-gate MOSFETs

An analytical model for terahertz detection in cylindrical surrounding-gate MOSFETs

An analytical model for detection of terahertz radiation by plasma wave in cylindrical surrounding-gate (SRG) MOSFETs is presented. In comparison with traditional drain-current models, the rectification response of terahertz signal due to current self-mixing in conducting channel is considered by so...

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Main Authors: Guangjin Ma, Chunlai Li, Xiaojuan Ma, Zhiping Zhou, Jin He
Format: Article
Language:English
Published: AIP Publishing LLC 2018-07-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.5043450
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spelling doaj-de81e99479854eca90502771fb26daf92020-11-24T23:43:30ZengAIP Publishing LLCAIP Advances2158-32262018-07-0187075117075117-1010.1063/1.5043450071807ADVAn analytical model for terahertz detection in cylindrical surrounding-gate MOSFETsGuangjin Ma0Chunlai Li1Xiaojuan Ma2Zhiping Zhou3Jin He4School of Electronics Engineering and Computer Science, Peking University, Beijing 100871, ChinaShenzhen SoC Key Laboratory, PKU-HKUST Shenzhen-Hong Kong Institution, Shenzhen 518057, ChinaShenzhen SoC Key Laboratory, PKU-HKUST Shenzhen-Hong Kong Institution, Shenzhen 518057, ChinaSchool of Electronics Engineering and Computer Science, Peking University, Beijing 100871, ChinaSchool of Electronics Engineering and Computer Science, Peking University, Beijing 100871, ChinaAn analytical model for detection of terahertz radiation by plasma wave in cylindrical surrounding-gate (SRG) MOSFETs is presented. In comparison with traditional drain-current models, the rectification response of terahertz signal due to current self-mixing in conducting channel is considered by solving coupled plasma fluid equations using perturbation method. The resulted model is for the first time dipicting detector response in above threshold, near threshold and subthreshold regimes by a single expression valid for both resonant and nonresonant detection schemes. As no fitting parameters is adopted, the model is physical and predicative. Model validity has been extensively verified through numerically solving differential equations with a wide range of incident wave frequencies, channel doping concentrations, device working temperatures, SRG MOSFET geometry parameters as well as incident wave amplitudes. Model applicability to large input terahertz signal has also been discussed. The presented model is convenient for finding the optimum detector design from a multiparameter space. Its great universality will make it a candidate compact model for future terahertz integrated circuit simulation.http://dx.doi.org/10.1063/1.5043450
collection DOAJ
language English
format Article
sources DOAJ
author Guangjin Ma
Chunlai Li
Xiaojuan Ma
Zhiping Zhou
Jin He
spellingShingle Guangjin Ma
Chunlai Li
Xiaojuan Ma
Zhiping Zhou
Jin He
An analytical model for terahertz detection in cylindrical surrounding-gate MOSFETs
AIP Advances
author_facet Guangjin Ma
Chunlai Li
Xiaojuan Ma
Zhiping Zhou
Jin He
author_sort Guangjin Ma
title An analytical model for terahertz detection in cylindrical surrounding-gate MOSFETs
title_short An analytical model for terahertz detection in cylindrical surrounding-gate MOSFETs
title_full An analytical model for terahertz detection in cylindrical surrounding-gate MOSFETs
title_fullStr An analytical model for terahertz detection in cylindrical surrounding-gate MOSFETs
title_full_unstemmed An analytical model for terahertz detection in cylindrical surrounding-gate MOSFETs
title_sort analytical model for terahertz detection in cylindrical surrounding-gate mosfets
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2018-07-01
description An analytical model for detection of terahertz radiation by plasma wave in cylindrical surrounding-gate (SRG) MOSFETs is presented. In comparison with traditional drain-current models, the rectification response of terahertz signal due to current self-mixing in conducting channel is considered by solving coupled plasma fluid equations using perturbation method. The resulted model is for the first time dipicting detector response in above threshold, near threshold and subthreshold regimes by a single expression valid for both resonant and nonresonant detection schemes. As no fitting parameters is adopted, the model is physical and predicative. Model validity has been extensively verified through numerically solving differential equations with a wide range of incident wave frequencies, channel doping concentrations, device working temperatures, SRG MOSFET geometry parameters as well as incident wave amplitudes. Model applicability to large input terahertz signal has also been discussed. The presented model is convenient for finding the optimum detector design from a multiparameter space. Its great universality will make it a candidate compact model for future terahertz integrated circuit simulation.
url http://dx.doi.org/10.1063/1.5043450
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